TDK-Micronas

EnvironmentalNews 2019to EMAS/ISO 14001

“Preserving what we value”

Freiburg and Glenrothes Locations

TDK-Micronas

EnvironmentalNews 20192

In the last twelve months, the subject of climate and environmental protection has rapidly gained in importance – not only in Germany, but worldwide. Against this background, it is good to know that both TDK-Micronas as a German semi-conduc-tor company and TDK Corporation as a globally operating group with production facilities in all parts of the world are fol-lowing a long-term plan with the aim of meeting the Paris climate targets by 2035, the year of TDK’s 100-year anniversary. TDK-Micronas will make its contribution to this. You can find an overview of our environmental projects on page 4.

Integrated into the chain of automotive suppliers, TDK-Micronas has stood for top-class sensor quality for many years among leading OEMs. At present, the most important factor affecting change in the automotive industry is the large num-ber of increasingly strict legal regulations, especially in the field of emissions. Car manufacturers must comply with the mounting demands on driving comfort, engine performance and driving enjoy-ment, combined with the simultaneous call to reduce fuel consumption and lower carbon dioxide (CO2) and nitrogen oxide (NOx) emissions. The electronics in modern-day automotive applications needs sensors with ever higher integra-tion density while meeting ever increas-ing demands on ruggedness, reliability and energy efficiency at the same time. Sensor manufacturers such as TDK con-front this constant innovation and cost pressure with tailor-made sensor solu-tions for a variety of automotive applica-tions.

The future of modern vehicles lies in electro mobility. The change to mobility is creating space for product innovations in the sensor segment. As a true visionary, TDK has taken advantage of this develop-ment as an opportunity to create from a proven technology an innovative product for electric and hybrid vehicles (xEV).

The new current sensor CUR 423x uses synergies within the TDK Group and com-bines TDK’s TMR (tunnel magneto-resistance) sensor technology with the TDK-Micronas’ know-how in the field of Hall effect-based current measurements. The new product is a TMR-based current sensor (based on the tunnel magneto-resistance effect) for high-current applica-tions up to 1,200 A, which can be used, for example, for highly accurate battery monitoring in electric vehicles. TDK’s TMR technology has already proven itself in many other automotive applications and is now paving the way for innovative cur-rent measurements.

Where environmental pollution is con-cerned, we cannot ignore the fact that the Earth is facing a problem. We must all do our part to protect Nature – and that also means looking beyond the company’s boundaries. In spring 2019, TDK-Micronas organized a garbage collection campaign in Freiburg’s northern industrial region. During the two-hour cleaning-up opera-tion, the participants collected waste thrown carelessly by passers-by on the side of the road. They also found that some of the litter had come from local companies in the Freiburg industrial zone. During the delivery or dispatch of goods, for example, packaging material such as plastic film or cardboard boxes are picked up by the wind and spread across the sur-rounding vegetation. I am pleased to say that, in our company, we have many dedicated employees who are actively committed to work for a future worth-living on our planet.

We also want to sensitize future genera-tions at TDK-Micronas to the topic of environmental protection. For this reason, our trainee program has, since June 2018, included an Innovation Academy training project that encourages the growth of more flowers and plants in industrial areas. The aim is to also educate the trainees on topics that are not normally

part of their training program, such as nature and species protection, horticul-ture and nutrition. In 25 months, through chaired workshops, a plan is to be drawn up for the company to improve ecological quality. In May 2019, as part of this project, our trainees created a flower meadow in front of the reception build-ing. The wild flowers they sowed are not only pretty to look at, they also need much less water. And they provide a home and source of food for numerous domestic insect species.

The high awareness of our employees of their responsibility for the environment is not only a driving force in the develop-ment of innovative products, it also helps with their resource-saving production at the Freiburg site. In production, TDK-Micronas also endeavors to exceed the legal requirements on environmental protection. Exemplary projects for saving energy are the company’s own photo-voltaic unit and the combined heat and power unit that went on stream in 2014. The latest project is now being built directly at the heart of our wafer production: Through the expansion of an improved wafer cleaning system, a con-siderable amount of electricity, chemicals and water will be saved in the next few years. You can read more about this project on the following page

Through continuous improvements and consistently implemented measures for greater environmental protection and saving of resources, TDK-Micronas is actively involved in realizing TDK’s corpo-rate vision and meeting the Paris climate targets. I am confident that we are on the right track.

Günter Weinberger Chief Executive Officer TDK-Micronas

Environmental Protection beyond Company Boundaries

Editorial

TDK-Micronas 3EnvironmentalNews 2019

Environmental Projects

In the course of several hundred individual physical and chemical pro-cesses, electronic circuits or silicon chips are produced on high-purity, monocrystalline silicon disks, known as wafers. The minimum structural sizes are below 0.5 µm and thus around one hundredth of the diameter of a human hair. They are thus only just about visible under an optical micro-scope.

During the production in the front end, between several thousand and over 20,000 Hall sensors are formed on one wafer, depending on the type. Every Hall sensor has between 5,000 and 100,000 transistors, resistors, capaci-tors and diodes. The processes of wafer production are performed in a repeating sequence of coating, lithography, etching, implan-tation, cleaning and high-temperature processes to create the structures and to adjust the electronic properties of the active elements.

Because of the small structural sizes, the wafer processing takes place in a clean room that allows a maximum of one particle greater than 0.5 µm in one cubic foot (35 l) of clean room air. Apart from that, the wafers have to be repeatedly cleaned during the course of the process. During this operation, it has to be ensured that the wafers are free of contamination such as particles or organic residues prior to any high-temperature processes. Even minimal contamination on the surface of the wafer could, during the subsequent high temperatures between 900 °C and 1,150 °C, penetrate into the silicon crystal and destroy the function of the electronic circuits.

For cleaning the wafers, an improved spray-cleaning process was introduced in 2017 with the start-up of a new plant. With the previously used cleaning

processes, the wafers were placed in a bath and permanently rinsed with high-purity water. For the cleaning, the necessary chemicals were injected into the water over a defined period. The consumption of high-purity water was correspondingly high. To accelerate the chemical reactions, the baths had to be permanently heated. With a high flow of water, this is naturally accompanied by high electricity consumption.

In the new spray cleaner, on the other hand, the necessary chemicals are sprayed in small doses directly onto the wafers. After a defined reaction time they are then removed again using ultra-pure water and this clean-ing process is repeated several times.

The cleaning is supported by the use of ozone, which is produced immedi-ately ahead of the process in an ozone generator and is completely destroyed again directly after the process. It is possible here to dispense entirely with the organic solvent isopropanol for drying the wafers because the drying

takes place by rotating the wafers in a hot inert gas flow in the process chamber. Overall, the amount of media used for the cleaning (water, electricity, chemi-cals) using the spray process is re-duced by over 90 % compared with the bath process.

The improved wafer cleaning process was first successfully introduced in a semi-automatic unit. In the next stage, use was made of a fully automatic spray cleaning with a higher through-put. In the final expansion stage, three machines with immersion baths will be replaced. Apart from the considerable water, chemicals and energy savings, the new cleaning units also require a much smaller clean room area.

Thomas MeidlingerModule Manager Hot Implant

Waferfab

The wafer cleaning team from l. to r.: Thomas Meidlinger, Michele Felice, Birgit Prien, Marianne Rosenau, Yvonne Maier, Frank Osiander, Vitalij Frank, Thomas Erath

Resource and Energy-Efficient

Cleaning of Wafers

TDK-Micronas

EnvironmentalNews 20194

Overview of Current and Planned Projects Freiburg and Glenrothes Locations

Environmental Projects

Subject Goal Measure Dept. responsible 2018 2019

Energymanagement

Electricity savings of approx. 10,000 kWh / year (2 t CO2 / year)

Electricity saving by relocation of hazard-ous substances in the warehouse and optimization of the fan efficiency

Plant Engineering and Facilities

Electricity savings of approx. 10,000 kWh / year (2 t CO2 / year)

Switch to LED lighting technology in buildings

Natural gas and electricity savings of approx. 36,000 kWh / year (7 t CO2 / year)

Roof renovation office building 3a and part of building 7 (both rented areas)

Natural gas and electricity savings of approx. 16,600 kWh / year (3 t CO2 / year)

Renovation of windows in building 11

Electricity savings of approx. 53,000 kWh / year (18 t CO2 / year)

Electricity savings through new generation of end-testers and parallel 8-fold test in the final test

Backend Test in Freiburg and Glenrothes

Electricity savings of approx. 13,000 kWh / year (2 t CO2 / year)

Electricity savings through new generation of end-testers and parallel 8-fold test in the final test

Electricity savings of approx. 41,000 kWh / year (8 t CO2 / year)

Capacity increase with faster die bonders Backend Assembly

Electricity savings of approx. 147,000 kWh / year (72 t CO2 / year)

Switch to LED lighting technology Testcenter Glenrothes

Resourcemanagement

Savings of approx. 25,000 m3 / year of municipal water and 85,000 kWh / year electricity (17 t CO2 / year)

Utilization of groundwater for cool-ing purposes with the continued use of installed sections of the groundwater remediation facility

Plant Engineering and Facilities

Annual savings of approx. 42 t chemicals, 10,000 m3 water and 315,000 kWh electricity (53 t CO2 / year)

Optimized wafer cleaning through semi-automatic spray cleaner

Waferfab

Annual savings of approx. 49 t chemicals, 5.200 m3 water and 630,000 kWh electricity (108 t CO2 / year)

Optimized wafer cleaning through fully automatic spray cleaner

Annual savings of approx. 15,000 m3 water

Water savings through installation of a new heat exchanger

Health protection

Encourage health care among the workforce

Health campaigns:

•Industry bikes in Industriegebiet Nord•Course for successfully losing weight •Tips on mindfulness topics•Provision of fruit bags •Conflict mediation•Medical check-ups and running training

to take part in the Business Run•Support to compete in the Freiburg

(half) marathon•Participation of over 250 employees in

Hansefit •Health truck of health insurance

company

Working group on health protection; campaign team „We for us“; com-pany medical team

Key: Implementation Extension Completed, goal achieved

5TDK-MicronasEnvironmentalNews 2019

TDKMicronas in T123

♦ Part of the Magnetic Sensors Business Group and the Competence Center for magnetic field sensors of the TDK Group

♦ Operational management and produc-tion in Freiburg, Germany

♦ Design center in Haar (Germany) ♦ Test center in Glenrothes (Scotland)

♦ 1078 employees worldwide, of which 890 in Freiburg

♦ Investment and ongoing expenditures in corporate environmental protection in Freiburg:

Investment and ongoing expenditures in company environmental protection (waste management, water protection, soil decontamination, noise reduction, air pollution control, climate protection, nature protection, landscape conservation, energy generation and control) in

Freiburg

Million Euros

2015 1.6

2016 1.7

2017 1.8

T123 0.8

Facts and Figures

ISO 14001 Glenrothes

Intechnica Cert GmbH Umweltgutachterorganisation, Ostendstraße 181, 90482 Nürnberg

C E R T I F I C A T E ISO 14001:2015

for

TDK-MICRONAS Ltd. at the site

2 Stirling Road Southfield Industrial Estate Glenrothes Fife, KY6 2ST

Scotland

The DAU-accredited environmental verifier hereby certifies that the named organization has implemented an Environmental Management System.

Scope: Testing of electrical components

With an audit it has been assessed that the requirements of ISO 14001:2015 are fulfilled.

Nürnberg, 16 July 2018 The follow-up certificate No. UGA 400-2018 is valid until 1 October 2020.

Dr. Reiner Beer Environmental Verifier

DE-V-0007

Dipl.-Phys. Reinhard Mirz Environmental Verifier

Organisation, DE-V-0279

EMAS Freiburg

TDK-Micronas within the MSBG of TDK Corporation

Certificates

F A C T S A N D F I G U R E S

TDK in T123

♦ Sales of around JPY 1,382 bn. ♦ 105,000 employees worldwide

Test center in Glenrothes

♦ 87 Employees ♦ Energy consumption 2.8 GWh, equivalent to 1,358 t CO2

♦ The important environmental aspect is the electricity consumption and the resulting CO2 emissions.

♦ Most important waste fractions: 2.1 t paper and board, 1.8 t plastics and 13.5 t metals into recycling; 2.5 t of general waste for disposal

♦ No notifiable accidents

s (H.K.) LTD

Saku / Nagano, JapanAsama Techno Factory (ATF)

HQ

TMR SensorsSensor Modules

Hong Kong, ChinaSAE Magnetic

• TMR Sensors• Sensor Modules

••

• TMR Sensors• Sensor Modules

Leuven, BelgienICsense

• Analog, mixed-signaland high-voltage ASICs

Glenrothes, ScotlandTDK-Micronas Ltd.

• Hall ICs• Embedded

Motor-Controllers

Freiburg, GermanyTDK-Micronas

• Hall ICs• Embedded

Motor-Controllers

Ayutthaya, ThailandTDK (Thailand) Co. Ltd

Magnetic Sensors Business Group Locations

ISO 14001 Freiburg

Intechnica Cert GmbH Umweltgutachterorganisation, Ostendstraße 181, 90482 Nürnberg

C E R T I F I C A T E ISO 14001:2015

for

TDK-Micronas GmbH at the site

Hans-Bunte-Straße 19, 79108 Freiburg

The DAU-accredited environmental verifier hereby certifies that the named organization has implemented an Environmental Management System.

Scope: Manufacture of electronic components and printed circuit boards

With an audit it has been assessed that the requirements of ISO 14001:2015 are fulfilled.

Nürnberg, 2 July 2018 The follow-up certificate No. UGA 268-2018 is valid until 31 July 2020.

Dr. Reiner Beer Environmental Verifier

DE-V-0007

Dipl.-Phys. Reinhard Mirz Environmental Verifier

Organisation, DE-V-0279

Magnetic Sensors Business Group Vision:

“Be a World No. 1 Magnetic Sensor Supplier.“

TDK-Micronas

EnvironmentalNews 2019

T D K M I C R o N aS G M B H F R E I B u R G absolute consumption

Consumption related to the total annual gross value added in %, normalized to the fiscal year T123

42.2 44.5 43.3

66.9 74.876.9

116 %109 %

100 %

2015 2016

Consumption of fossil energy (GWh)

Consumption of electricity (GWh)

Total energy consumption related tototal gross value added

Consumption of electricity and fossil energy sources,taking into account the respective primary energy factor.

Q1/2017 T123

21.4

10.6

T122

43.1

71.9

113 %

Year Total Energy Consumption

in GWh

of which from Renewable Energy Sources in GWh

(Proportion of Total Energy Consumption)

2015 95.6 25.4 (27%)

2016 103.7 24.7 (24%)

T122 103.9 22.5 (22%)

T123 99.7 23.5 (24%)

416 424

114 % 117 % 111 %100 %

2015 2016

Consumption per 1,000 m3

Consumption according to gross value added

Water

383

97

Q1/2017 T122 T123

398

752 742849 886

101% 94% 100% 100%

207

Chemicals

2015 2016 T122Q1/2017 T123

Consumption in t

Consumption according to gross value added

Process Gases

2015 2016 Q1/2017 T123T122

Consumption in t

Consumption according to gross value added

7.8 8.19.2 9.2

100% 99% 104%100%

2.0

Note: The data for chemicals and process gases

for the reporting period T123 has been corrected.

6

Below are the core indicators for the Freiburg

operating segment. By publishing these fig-

ures, we comply with the requirements of

Regulation (EC) No. 1221/2009, the so-called

EMAS regulation.

The bar charts show the absolute consumption

figures, while the linear diagrams show the

consumption normalized to the total gross

value added – the so-called “core indicators”.

The core indicators themselves are related to

the reporting period of this issue of Environ-

mentalNews. Up to 2017, the reporting period was always the

calendar year. Starting with T122 (1 April 2017

to 31 March 2018), we now adjust the reporting

period to the fiscal year of TDK.

The consumption figures for the missing first

quarter of 2017 are shown at the appropriate

place on each chart. The concluded fiscal year

T123 began on 1 April 2018 and ended on 31

March 2019. Normalization to the total gross

value added ensures the required comparability

of the consumption data over the last four years.

Primary energy factors, CO2 emission factors,

data on renewable energies of the power sup-

plier and accident figures from the employers‘

liability insurance association are only available

for the calendar year. Investment and ongoing

expenditures also relate to the calendar year, as

do data that are sent recurrently to the statistical

office or federal office.

Energy consumption

The total direct energy consumption from elec-

tricity and energy sources and the proportion

of consumed renewable energy are shown in

the following table. The energy consumption

taking into account the relevant primary energy

factors (PEF) is shown in the bar charts below.

The photovoltaic unit generated around

237.5 MWh in the reporting period T123.

Environmental Data

Freiburg Site

Environmental data in T123

7TDK-MicronasEnvironmentalNews 2019

WaST E Waste in t

Waste referring to gross value added in %, normalized to the year T123

C o 2 E q u I va L E N T S aC C I D E N T S

Notifiable accidents per 1,000 employees

in the last four calendar years

392485 516

3848

5363

107 %116 % 111 %

100 %

2015 2016

Hazardous waste (t)

Other waste for recycling

Other waste for disposal

Solvents for recyclingAcids for disposal

Acids for recycling

113145

Q1/2017 T123T122

474

62

6.3 4.4 6.7

12.2 13.714.0

22.0 21.825.6

108 % 100 % 109 % 100 %

2015 2016

Emission source PFC gases

Emission source fossil energy

Emissions source electricity

CO2 emissions according to grossvalue added in %, normized to the

CO2 Equivalents per 1,000 t

CO2-Equivalents

financial year T123

Q1/2017 T123

1.6

5.63.9

T122

6.4

13.1

25.1

51 72 56

132131 145

7275 80

2217 36

89 91

109 % 108 % 107 % 100 %

2015 2016

Non-hazardous waste (t)

Wood for disposal

Other waste for recycling

Ohter waste for disposal Steel scrap for recycling

Plastics for recycling

Paper for recycling

213841

831

Q1/2017 T123T122

48

143

92

34

8593

14.5 14.8

2.11.1

7.0

0

5

10

15

20

2015 2016 2017 2018

Accidents

Index of the employers‘ liability insurance associationTDK-Micronas-Index

Inde

x of

the

insu

ranc

e as

soci

atio

nno

t yet

ava

ilabl

e

3.0

14.4

Environmental data in T123

other environmental data:

• The natural gas consumption (for heating and

for electricity and heat generation in the co-

generation unit) in T123 of just under 65 GWh

according to GEMIS (Global Emissions Model

for Integrated Systems) corresponds to equiv-

alent emissions of 95 kg of SO2, 5.3 t NOx and

66 kg of dust, which are regarded as insig-

nificant environmental aspects.• The sealed area (core indicator biological diver-

sity) is 39,200 m2, the unsealed area is

12,300 m2. • The recycling quota for the entire waste pro-

duced is very high at 99.8 % .

occupational safety and health protection

At TDK-Micronas in Freiburg, the accident

figures are always below the comparative

index of the employers‘ liability insurance

association. Compared with previous years,

however, there were significantly more acci-

dents at work in the T123 period covered by

the report, namely seven notifiable accidents.

These were hand and leg injuries caused by

squeezing, knocking or twisting that led, for

example, to pulled tendons and sprains with-

out any permanent damage.

Fire prevention and emergency management

In the past, TDK-Micronas has invested a lot of

money in fire prevention (e.g. fire alert system,

sprinkler units, inert gas extinguishers, leakage

and gas sensor systems, central hazard alert

system in the alarm center, which is manned

24/7. The alarm system for the emergency task

forces is tested regularly, and, in particular the

members of the company‘s internal task force

have to prove their skills in frequent exercise

drills.

Recently, a waste chemical was accidentally

released through a technical fault in one of the

rented halls in our Technology Park. After acti-

vation of the alarm chain, the task force imme-

diately shut off the chemical and energy supply

to the corresponding plant. Through the action

of the TDK-Micronas emergency response

team under the leadership of Kay Gauglitz, and

with the help of the necessary personal protec-

tive equipment, building damage was kept to

a minimum, bodily injury was prevented and

any effects “beyond the company boundaries”

were avoided.

The members of the emergency response team are thanked for their dedication:

from l. to r.: Kay Gauglitz, Markus  Behrendt, Jan Laube, Jürgen  Spillmann, Sebastian Becker, CEO Günter Weinberger

Environmental Statement

The next consolidated EnvironmentalStatement will be submitted for validation during July 2020 at the latest.

Environmental verifier / Environmental verifier organization

The authorized environmental verifier / environmental verifier organization are as follows:

Dr.-Ing. R. Beer (Permit No. DE-V-0007) Intechnica Cert GmbH (Permit No. DE-V-0279) Ostendstrasse 181 90482 Nuremberg

validation

Dr. Reiner Beer, with EMAS environmental verifier registration number DE-V-0007, accredited or licensed for the scope 26.1 (NACE Code Rev. 2), Manufacture of electronic components and boards, declares to have verified whether the site as indicated in the consolidated environmental statement with registration number D-126-00053 meets all requirements of Regulation (EC) No 1221/2009 of the European Parliament and of the Council of 25 November 2009 on the voluntary participation by organizations in a community eco-management and audit scheme (EMAS), supplemented by Regulation (EU) No 2017/1505 amending Annexes I, II and III to Regulation (EC) No 1221/2009.

By signing this declaration, I declare that

– the verification and validation has been carried out in full compliance with the requirements of Regulation (EC) No 1221/2009,

– the outcome of the verification and validation confirms that there is no evidence of non-compliance with applicable legal requirements relating to the environment,

– the data and information of the updated environmental statement of the site reflect a reliable, credible and correct image of the site activities, within the scope mentioned in the environmental statement.

Nuremberg, July 25, 2019 Dr. Reiner Beer, Environmental Expert

TDKMicronas GmbH

Hans-Bunte-Strasse 19 · D-79108 Freiburg

P. O. Box 840 · D-79008 Freiburg · Germany

Phone +49-761-517-0 · Fax +49-761-517-2174

E-mail: environment@micronas.com · www.micronas.com

July 2019

Order No. U-0019-1E

The German version is legally binding.

Printed on environmentally friendly paper, made of 100 % recycled paper fibers.

Contact:

Environmental Manager Officer

Dr. Norbert Streckfuss

Phone +49-761-517-3050

norbert.streckfuss@micronas.com

First published in: July 2019